Mostrando 8 resultados de: 8
Publisher
Bulletin of Mathematical Biology(1)
Infectious Disease Modelling(1)
Letters in Biomathematics(1)
Mathematical Biosciences(1)
Mathematical and Statistical Modeling for Emerging and Re-emerging Infectious Diseases(1)
Área temáticas
Medicina forense; incidencia de enfermedades(6)
Enfermedades(3)
Medicina y salud(3)
Problemas sociales y servicios a grupos(2)
Fisiología humana(1)
Origen
scopus(8)
Assessing the efficiency of movement restriction as a control strategy of ebola
Book PartAbstract: We formulate a two-patch mathematical model for Ebola Virus Disease dynamics in order to evaluate thPalabras claves:Ebola, Epidemic model, Patch model, Spatial model, transmission dynamicsAutores:Bichara D., Carlos Castillo-Chávez, Espinoza B., Moreno V.M.Fuentes:scopusOn the dynamics of dengue virus type 2 with residence times and vertical transmission
ArticleAbstract: A two-patch mathematical model of Dengue virus type 2 (DENV-2) that accounts for vectors’ vertical tPalabras claves:DENGUE, DENV-2 Asian genotype, Global stability, multi-patch model, residence times, vector-borne diseasesAutores:Bichara D., Carlos Castillo-Chávez, Holechek S.A., Murillo A.L., Velázquez-Castro J.Fuentes:scopusModeling ebola at the mathematical and theoretical biology institute (MTBI)
ArticleAbstract: Work with STEM students at MTBI advanced the possibility that quarantine can cause increased levelsPalabras claves:Autores:Barley K., Bichara D., Carlos Castillo-Chávez, Chowell D., Díaz Herrera E., Espinoza B., Moreno V.M., Towers S., Yong K.Fuentes:scopusPerspectives on the role of mobility, behavior, and time scales in the spread of diseases
ReviewAbstract: The dynamics, control, and evolution of communicable and vector-borne diseases are intimately connecPalabras claves:Behavior, Complex adaptive systems, infectious disease, mobility, RiskAutores:Bichara D., Carlos Castillo-Chávez, Morin B.R.Fuentes:scopusVector-borne diseases models with residence times – A Lagrangian perspective
ArticleAbstract: A multi-patch and multi-group modeling framework describing the dynamics of a class of diseases drivPalabras claves:Basic reproduction number, Global stability, Human dispersal, Nonlinear dynamical systems, vector-borne diseasesAutores:Bichara D., Carlos Castillo-ChávezFuentes:scopusRole of short-term dispersal on the dynamics of Zika virus in an extreme idealized environment
ArticleAbstract: In November 2015, El Salvador reported their first case of Zika virus (ZIKV) infection, an event folPalabras claves:multi-patch model, residence times, vector-borne diseases, Zika VirusAutores:Bichara D., Carlos Castillo-Chávez, Espinoza B., Holechek S.A., Moreno V.M.Fuentes:scopusSIS and SIR Epidemic Models Under Virtual Dispersal
ArticleAbstract: We develop a multi-group epidemic framework via virtual dispersal where the risk of infection is a fPalabras claves:Adaptive behavior, Dispersal, epidemiology, Final size relationship, Global stability, residence times, SIS–SIR modelsAutores:Bichara D., Carlos Castillo-Chávez, Horan R.D., Kang Y., Perrings C.Fuentes:scopusThe role of mobility and health disparities on the transmission dynamics of Tuberculosis
ArticleAbstract: Background: The transmission dynamics of Tuberculosis (TB) involve complex epidemiological and socioPalabras claves:Direct first time infection rate, Exogenous re-infection, heterogeneity, Metapopulation model, residence times, TuberculosisAutores:Barley K., Bichara D., Carlos Castillo-Chávez, Espinoza B., Moreno V.M., Mubayi A., Paredes M.Fuentes:scopus